O
Oluwole Daniel Makinde
Researcher at Stellenbosch University
Publications - 616
Citations - 17516
Oluwole Daniel Makinde is an academic researcher from Stellenbosch University. The author has contributed to research in topics: Heat transfer & Nanofluid. The author has an hindex of 56, co-authored 576 publications receiving 13757 citations. Previous affiliations of Oluwole Daniel Makinde include Nelson Mandela Metropolitan University & Cape Peninsula University of Technology.
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Thermophoresis and Brownian motion effects on MHD bioconvection of nanofluid with nonlinear thermal radiation and quartic chemical reaction past an upper horizontal surface of a paraboloid of revolution
TL;DR: In this paper, the combined effects of buoyancy force, Brownian motion, thermophoresis and quartic autocatalytic kind of chemical reaction on bioconvection of nanofluid containing gyrotactic microorganism over an upper horizontal surface of a paraboloid of revolution are analyzed.
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The effect of double stratification on boundary-layer flow and heat transfer of nanofluid over a vertical plate
TL;DR: In this article, the problem of double stratification on boundary layer flow and heat transfer induced due to a nanofluid over a vertical plate is investigated, which includes the effect of Brownian motion, thermophoresis, thermal stratification and solutal stratification parameters.
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MHD boundary layer flow of a nanofluid containing gyrotactic microorganisms past a vertical plate with Navier slip
TL;DR: In this paper, the combined effects of Navier slip and magnetic field on boundary layer flow with heat and mass transfer of a water-based nanofluid containing gyrotactic microorganisms over a vertical plate are investigated.
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MHD nanofluid bioconvection due to gyrotactic microorganisms over a convectively heat stretching sheet
TL;DR: In this article, the effects of the governing parameters on the dimensionless quantities like velocity, temperature, nanoparticle concentration, density of motile microorganisms, local Nusselt, and local Sherwood numbers for both nanoparticles and motile microscopic density are explored.
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MHD flow of a variable viscosity nanofluid over a radially stretching convective surface with radiative heat
TL;DR: In this article, the combined effects of thermal radiation, thermophoresis, Brownian motion, magnetic field and variable viscosity on boundary layer flow, heat and mass transfer of an electrically conducting nanofluid over a radially stretching convectively heated surface were investigated.